CN112027633A - Rotary material turning and dislocation mechanism - Google Patents

Abstract

The invention discloses a rotary material turning and dislocation mechanism which comprises a vertical frame, a stepping motor, a four-part rotating wheel, a baffle, a rubber core direct-vibration feeder, a first dislocation feeding component, a second dislocation feeding component, an origin position optical fiber and a detection optical fiber, wherein the stepping motor drives the four-part rotating wheel to rotate, four rubber core mounting grooves distributed in an annular shape are arranged on the four-part rotating wheel in an array mode, the upper parts of two sides of the four-part rotating wheel are provided with the baffle, the side end of the vertical frame is provided with the rubber core direct-vibration feeder, a discharge port of the rubber core direct-vibration feeder is in butt joint with the rubber core mounting groove in a horizontal position, the first dislocation feeding component is in butt joint with the rubber core mounting groove in another horizontal position, and the output end of the first dislocation feeding component is provided with the second dislocation feeding component which is perpendicular to the first dislocation. Through the mode, the rubber core turnover mechanism is compact in structure, the rotary turnover dislocation mechanisms can sequentially supply materials, the opening of the rubber core is ensured to face the assembly station, and subsequent assembly is facilitated.

Description

Rotary material turning and dislocation mechanism

Technical Field

The invention relates to the technical field of connector production, in particular to a rotary material turning and dislocation mechanism.

Background

DC JACK product is power source interface application range now more and more extensively, the use amount is also more and more big, market is to productivity and quality requirement higher and higher, carry out vigorously to research and develop automation equipment under this condition and satisfy the demand and reduce the cost of labor, and upgrade to former equipment, power source interface comprises gluey core, the terminal, the iron-clad, back stopper several parts, for simple to operate, it is provided with the installation department to glue outside extension of core one side end, ordinary direct shock feed is glued the core and all is the relative ejection of compact in proper order of head and the tail, at follow-up installation station, need glue the core and aim at the equipment station, ordinary direct shock feed can't satisfy above-mentioned requirement, based on above defect and not enough, it is necessary to improve current technique, design a rotatory stirring dislocation mechanism.

Disclosure of Invention

The invention mainly solves the technical problem of providing a rotary material turning dislocation mechanism which is compact in structure and stable in operation, the rotary material turning dislocation mechanism can sequentially supply materials, the opening of a rubber core is ensured to face an assembly station, and subsequent assembly is facilitated.

In order to solve the technical problems, the invention adopts a technical scheme that: a rotary material turning and dislocation mechanism is provided, which comprises a vertical frame, a stepping motor, a four-part rotation wheel, a baffle, a rubber core direct vibration feeder, a first dislocation feeding component, a second dislocation feeding component, an original point position optical fiber and a detection optical fiber, wherein the stepping motor and the four-part rotation wheel are arranged on two vertical plates of the vertical frame, the stepping motor drives the four-part rotation wheel to rotate, four rubber core mounting grooves distributed in an annular shape are arranged on the four-part rotation wheel in an array manner, the baffle is arranged on the upper parts of two sides of the four-part rotation wheel and fixed on the vertical frame, the rubber core direct vibration feeder is arranged at the side end of the vertical frame, the feed inlet of the rubber core direct vibration feeder is butted with a rubber core vibration disc, the discharge outlet of the rubber core direct vibration feeder is butted with the rubber core mounting groove of the horizontal position, the head and the tail of the rubber core direct vibration feeder are opposite, and the materials are sequentially fed, a first staggered feeding component is arranged at the position of the rubber core mounting groove of the other horizontal station in a butt joint mode, and a second staggered feeding component which is perpendicular to the first staggered feeding component is arranged at the output end of the first staggered feeding component; an original point position optical fiber is arranged on the vertical frame close to the lower station rubber core mounting groove, and a detection optical fiber opposite to the rubber core direct-vibration feeder is arranged on the baffle.

Preferably, the first dislocation feeding assembly comprises a supporting plate, a first push-pull cylinder, a guide block, a first push block, a rubber core transition plate, a cover plate, in-place optical fibers and a follow-up pressing block, the supporting plate is horizontally arranged on the vertical frame, the first push-pull cylinder and the guide block are installed on the supporting plate, the first push block opposite to the rubber core installation groove is installed in the guide block, a telescopic rod of the first push-pull cylinder is fixed with the first push block, the rubber core transition plate opposite to the first push block is arranged on the other side of the four-part rotating wheel, a rubber core channel with the same rubber core shape is arranged in the rubber core transition plate, the in-place optical fibers opposite to the rubber core channel are inserted in the rubber core transition plate, the cover plate is packaged with the cover plate, the follow-up pressing block is inserted in the cover plate, and a guide inclined plane is arranged at the lower end of the follow-up pressing block.

Preferably, the second staggered feeding assembly comprises a bearing plate, a second push-pull cylinder and a second push block, the bearing plate is arranged at the bottom of the rubber core transition plate, the second push-pull cylinder is mounted on the bearing plate, the second push block is mounted on a telescopic rod of the second push-pull cylinder, the second push block penetrates through the rubber core transition plate and is opposite to the rubber core channel, the guide inclined plane is matched with the second push block for use, and a discharging opening opposite to the second push block is arranged at the side end of the rubber core channel.

Compared with the prior art, the invention has the beneficial effects that:

compact structure, operate steadily, rotatory stirring dislocation mechanism's setting can feed in proper order, guarantees to glue the core opening towards the equipment station, the follow-up equipment of being convenient for.

The four-division-position rotating wheel can be used for turning materials and feeding materials in a staggered mode, and the continuous feeding is changed to single feeding in sequence, so that the subsequent multi-station plug-in mounting requirement is facilitated;

the first staggered feeding assembly and the second staggered feeding assembly are matched for use, and the glue cores can be supplied in the appointed direction.

Drawings

Fig. 1 is a first view structure diagram of a rotary stirring and dislocating mechanism.

Fig. 2 is a second view structure diagram of a rotary stirring and dislocating mechanism.

FIG. 3 is a cross-sectional view of a second offset feed assembly of a rotary upender offset mechanism.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings so that the advantages and features of the invention can be more readily understood by those skilled in the art, and the scope of the invention will be more clearly defined.

Referring to fig. 1 to 3, an embodiment of the present invention includes:

a rotary material turning dislocation mechanism comprises a vertical frame 41, a stepping motor 42, a four-part rotating wheel 43, a baffle 44, a rubber core direct-vibration feeder 45, a first dislocation feeding component 46, a second dislocation feeding component 47, an original point position optical fiber 48 and a detection optical fiber 49, wherein the stepping motor 42 and the four-part rotating wheel 43 are installed on two vertical plates of the vertical frame 41, the stepping motor 42 drives the four-part rotating wheel 43 to rotate, four rubber core mounting grooves 430 which are distributed annularly are arranged on the four-part rotating wheel 43 in an array manner, the baffle 44 is arranged on the upper parts of two sides of the four-part rotating wheel 43, the baffle 44 is fixed on the vertical frame 41, the rubber core direct-vibration feeder 45 is arranged at the side end of the vertical frame 41, the discharge hole of the rubber core direct-vibration feeder 45 is butted with the rubber core mounting groove 430 at the horizontal position, the rubber core direct-vibration feeder 45 is opposite from head to tail, sequentially feeding materials, wherein a first staggered feeding component 46 is arranged at the position of a rubber core mounting groove 430 of the other horizontal station in a butt joint mode, and a second staggered feeding component 47 which is perpendicular to the first staggered feeding component 46 is arranged at the output end of the first staggered feeding component 46; an origin position optical fiber 48 is installed on the vertical frame 41 close to the lower station rubber core installation groove 430, and a detection optical fiber 49 opposite to the rubber core vertical vibration feeder 45 is installed on the baffle 44.

The first offset feeding assembly 46 comprises a supporting plate 461, a first push-pull cylinder 462, a guide block 463, a first push block 464, a rubber core transition plate 465, a cover plate 466, an in-place optical fiber 467 and a follow-up press block 468, the supporting plate 461 is horizontally arranged on the vertical frame 41, a first push-pull cylinder 462 and a guide block 463 are arranged on the supporting plate 461, a first push block 464 opposite to the rubber core mounting groove 430 is arranged in the guide block 463, an expansion rod of the first push-pull cylinder 462 is fixed with the first push block 464, a rubber core transition plate 465 opposite to the first push block 464 is arranged at the other side of the four-division rotating wheel 43, a rubber core passage with a consistent rubber core shape is arranged in the rubber core transition plate 465, an in-place optical fiber 467 opposite to the rubber core passage is inserted on the rubber core transition plate 465, a cover plate 466 is packaged on the rubber core transition plate 465, a follow-up pressing block 468 is inserted on the cover plate 466, and a guide inclined plane 4680 is arranged at the lower end of the follow-up pressing block 468.

The second staggered feeding assembly 47 comprises a bearing plate 471, a second push-pull cylinder 472 and a second push block 473, the bearing plate 471 is arranged at the bottom of a rubber core transition plate 465, the bearing plate 471 is provided with the second push-pull cylinder 472, a telescopic rod of the second push-pull cylinder 472 is provided with the second push block 473, the second push block 473 penetrates through the rubber core transition plate 465 and is opposite to the rubber core passage, the guide inclined surface 4680 is matched with the second push block 473 for use, and a discharging opening opposite to the second push block 473 is arranged at the side end of the rubber core passage.

When the rotary material turning and dislocation mechanism works, a rubber core directly shakes the rubber core in the feeder 45 and is conveyed to the rubber core mounting groove 430, after an optical fiber 49 to be detected detects the rubber core, the stepping motor 42 drives the four-position rotating wheel 43 to rotate, the four-position rotating wheel 43 rotates 180 degrees, the piston rod of the first push-pull air cylinder 462 extends to drive the first push block 464 to move, the first push block 464 pushes the rubber core in the rubber core mounting groove 430 into the rubber core channel of the rubber core transition plate 465, after the optical fiber 467 detects the rubber core, the piston rod of the second push-pull air cylinder 472 extends to drive the second push block 473 to move, and the second push block 473 pushes the rubber core to a designated position.

The rotary material turning and dislocation mechanism is compact in structure and stable in operation, materials can be fed in sequence through the rotary material turning and dislocation mechanism, the opening of a rubber core is enabled to face an assembling station, and subsequent assembling is facilitated.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (3)

1. The utility model provides a rotatory stirring dislocation mechanism which characterized in that: the rotary material turning and dislocation mechanism comprises a vertical frame, a stepping motor, a four-part rotation wheel, a baffle, a rubber core direct vibration feeder, a first dislocation feeding component, a second dislocation feeding component, an origin position optical fiber and a detection optical fiber, a stepping motor and a four-position rotating wheel are arranged on the two vertical plates of the vertical frame, the stepping motor drives the four-position rotating wheel to rotate, the four-position rotating wheel is provided with four rubber core mounting grooves which are distributed annularly in an array mode, the upper portions of two sides of the four-position rotating wheel are provided with baffle plates, the baffle plates are fixed on a vertical frame, the side end of the vertical frame is provided with a rubber core direct-vibration feeding device, a discharge port of the rubber core direct-vibration feeding device is in butt joint with the rubber core mounting groove at the horizontal position, a first staggered feeding component is arranged at the position of the rubber core mounting groove at the other horizontal position in a butt joint mode, and the output end of the first staggered feeding component is provided with a second staggered feeding component which is; an original point position optical fiber is arranged on the vertical frame close to the lower station rubber core mounting groove, and a detection optical fiber opposite to the rubber core direct-vibration feeder is arranged on the baffle.

2. The rotary upender dislocation mechanism as claimed in claim 1, wherein: the first staggered feeding assembly comprises a supporting plate, a first push-pull cylinder, a guide block, a first push-pull cylinder, a rubber core transition plate, a cover plate, in-place optical fibers and a follow-up pressing block, the supporting plate is horizontally arranged on a vertical frame, the first push-pull cylinder and the guide block are installed on the supporting plate, the first push block opposite to the rubber core installation groove is installed in the guide block, a telescopic rod of the first push-pull cylinder is fixed with the first push block, the rubber core transition plate opposite to the first push block is arranged on the other side of the four-position rotating wheel, a rubber core channel with the same rubber core shape is arranged in the rubber core transition plate, the in-place optical fibers opposite to the rubber core channel are inserted in the rubber core transition plate, the cover plate is packaged with the cover plate, the follow-up pressing block is inserted in the cover plate, and a guide inclined plane is arranged at the lower end of the follow.

3. The rotary upender dislocation mechanism as claimed in claim 1, wherein: the second staggered feeding assembly comprises a bearing plate, a second push-pull cylinder and a second push block, the bearing plate is arranged at the bottom of the rubber core transition plate, the second push-pull cylinder is mounted on the bearing plate, a second push block is mounted on a telescopic rod of the second push-pull cylinder, the second push block penetrates through the rubber core transition plate and is opposite to the rubber core channel, the guide inclined plane is matched with the second push block for use, and a discharging opening opposite to the second push block is formed in the side end of the rubber core channel.

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